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1 - Component characterization: an approach to fracture hydrogeology

Published online by Cambridge University Press:  04 December 2009

Jane C. S. Long
Affiliation:
Lawrence Berkeley National Laboratory
Christine Doughty
Affiliation:
Lawrence Berkeley National Laboratory
Akhil Datta-Gupta
Affiliation:
Lawrence Berkeley National Laboratory and Texas A&M University
Kevin Hestir
Affiliation:
Lawrence Berkeley National Laboratory and Utah State University
Don Vasco
Affiliation:
Lawrence Berkeley National Laboratory
Gedeon Dagan
Affiliation:
Tel-Aviv University
Shlomo P. Neuman
Affiliation:
University of Arizona
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Summary

INTRODUCTION

Within (he last few decades, the problems in hydrogeology and reservoir engineering have changed, from simply being concerned with how much fluid could be extracted or injected, to more complex problems such as contaminant transport and multi-fluid extraction schemes. Engineers began to realize that field-scale observations of these complex phenomena could not be predicted from laboratory measurements. A prime example was that lab-scale measurements of dispersivity were too small to account for the amount of contaminant spreading actually observed in the field. Scientists came to the conclusion that this amount of spreading was due to the heterogeneous nature of the medium and was really advective in nature. The large-scale dispersion was actually the tortuosity of flow as fluids moved through the more permeable parts of the medium and around the less permeable parts. Work began to define the nature of geologic heterogeneity and its effect on flow and transport.

This chapter examines the special nature of fracture heterogeneity and the implications of this nature for system characterization and the development of predictive models for hydrologic behavior. Examples are drawn from work at various sites in different rock types. The philosophy expounded in this chapter is primarily a rationalist approach. That is, the rock type and the history determine the nature of the hydrology. Observations should illuminate this nature and identify the components of the system which affect flow. This conceptual understanding of the system components should then guide further characterization efforts, placing emphasis on measurements made judiciously (rather than randomly or regularly) and based on understanding of the role of the various components of the system.

Type
Chapter
Information
Subsurface Flow and Transport
A Stochastic Approach
, pp. 179 - 195
Publisher: Cambridge University Press
Print publication year: 1997

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